// deck.gl
// SPDX-License-Identifier: MIT
// Copyright (c) vis.gl contributors

import {Layer, project32, picking, log} from '@deck.gl/core';
import type {Device} from '@luma.gl/core';
import {pbrMaterial} from '@luma.gl/shadertools';
import {ScenegraphNode, GroupNode, ModelNode, Model} from '@luma.gl/engine';
import {GLTFAnimator, PBREnvironment, createScenegraphsFromGLTF} from '@luma.gl/gltf';
import {GLTFLoader, postProcessGLTF} from '@loaders.gl/gltf';
import {waitForGLTFAssets} from './gltf-utils';

import {MATRIX_ATTRIBUTES, shouldComposeModelMatrix} from '../utils/matrix';

import {scenegraphUniforms, ScenegraphProps} from './scenegraph-layer-uniforms';
import vs from './scenegraph-layer-vertex.glsl';
import fs from './scenegraph-layer-fragment.glsl';

import {
  UpdateParameters,
  LayerContext,
  LayerProps,
  LayerDataSource,
  Position,
  Color,
  Accessor,
  DefaultProps
} from '@deck.gl/core';

type GLTFInstantiatorOptions = Parameters<typeof createScenegraphsFromGLTF>[2];

const DEFAULT_COLOR: [number, number, number, number] = [255, 255, 255, 255];

export type ScenegraphLayerProps<DataT = unknown> = _ScenegraphLayerProps<DataT> & LayerProps;

type _ScenegraphLayerProps<DataT> = {
  data: LayerDataSource<DataT>;
  // TODO - define in luma.gl
  /**
   * A url for a glTF model or scenegraph loaded via a [scenegraph loader](https://loaders.gl/docs/specifications/category-scenegraph)
   */
  scenegraph: any;
  /**
   * Create a luma.gl GroupNode from the resolved scenegraph prop
   */
  getScene?: (
    scenegraph: any,
    context: {device?: Device; layer: ScenegraphLayer<DataT>}
  ) => GroupNode;
  /**
   * Create a luma.gl GLTFAnimator from the resolved scenegraph prop
   */
  getAnimator?: (
    scenegraph: any,
    context: {device?: Device; layer: ScenegraphLayer<DataT>}
  ) => GLTFAnimator;
  /**
   * (Experimental) animation configurations. Requires `_animate` on deck object.
   */
  _animations?: {
    [name: number | string | '*']: {
      /** If the animation is playing */
      playing?: boolean;
      /** Start time of the animation, default `0` */
      startTime?: number;
      /** Speed multiplier of the animation, default `1` */
      speed?: number;
    };
  } | null;
  /**
   * (Experimental) lighting mode
   * @default 'flat'
   */
  _lighting?: 'flat' | 'pbr';
  /**
   * (Experimental) lighting environment. Requires `_lighting` to be `'pbr'`.
   */
  _imageBasedLightingEnvironment?:
    | PBREnvironment
    | ((context: {gl: WebGL2RenderingContext; layer: ScenegraphLayer<DataT>}) => PBREnvironment);

  /** Anchor position accessor. */
  getPosition?: Accessor<DataT, Position>;
  /** Color value or accessor.
   * @default [255, 255, 255, 255]
   */
  getColor?: Accessor<DataT, Color>;
  /**
   * Orientation in [pitch, yaw, roll] in degrees.
   * @see https://en.wikipedia.org/wiki/Euler_angles
   * @default [0, 0, 0]
   */
  getOrientation?: Accessor<DataT, [number, number, number]>;
  /**
   * Scaling factor of the model along each axis.
   * @default [1, 1, 1]
   */
  getScale?: Accessor<DataT, [number, number, number]>;
  /**
   * Translation from the anchor point, [x, y, z] in meters.
   * @default [0, 0, 0]
   */
  getTranslation?: Accessor<DataT, [number, number, number]>;
  /**
   * TransformMatrix. If specified, `getOrientation`, `getScale` and `getTranslation` are ignored.
   */
  getTransformMatrix?: Accessor<DataT, number[]>;
  /**
   * Multiplier to scale each geometry by.
   * @default 1
   */
  sizeScale?: number;
  /**
   * The minimum size in pixels for one unit of the scene.
   * @default 0
   */
  sizeMinPixels?: number;
  /**
   * The maximum size in pixels for one unit of the scene.
   * @default Number.MAX_SAFE_INTEGER
   */
  sizeMaxPixels?: number;
};

const defaultProps: DefaultProps<ScenegraphLayerProps> = {
  scenegraph: {type: 'object', value: null, async: true},
  getScene: gltf => {
    if (gltf && gltf.scenes) {
      // gltf post processor replaces `gltf.scene` number with the scene `object`
      return typeof gltf.scene === 'object' ? gltf.scene : gltf.scenes[gltf.scene || 0];
    }
    return gltf;
  },
  getAnimator: scenegraph => scenegraph && scenegraph.animator,
  _animations: null,

  sizeScale: {type: 'number', value: 1, min: 0},
  sizeMinPixels: {type: 'number', min: 0, value: 0},
  sizeMaxPixels: {type: 'number', min: 0, value: Number.MAX_SAFE_INTEGER},

  getPosition: {type: 'accessor', value: (x: any) => x.position},
  getColor: {type: 'accessor', value: DEFAULT_COLOR},

  // flat or pbr
  _lighting: 'flat',
  // _lighting must be pbr for this to work
  _imageBasedLightingEnvironment: undefined,

  // yaw, pitch and roll are in degrees
  // https://en.wikipedia.org/wiki/Euler_angles
  // [pitch, yaw, roll]
  getOrientation: {type: 'accessor', value: [0, 0, 0]},
  getScale: {type: 'accessor', value: [1, 1, 1]},
  getTranslation: {type: 'accessor', value: [0, 0, 0]},
  // 4x4 matrix
  getTransformMatrix: {type: 'accessor', value: []},

  loaders: [GLTFLoader]
};

/** Render a number of instances of a complete glTF scenegraph. */
export default class ScenegraphLayer<DataT = any, ExtraPropsT extends {} = {}> extends Layer<
  ExtraPropsT & Required<_ScenegraphLayerProps<DataT>>
> {
  static defaultProps = defaultProps;
  static layerName = 'ScenegraphLayer';

  state!: {
    scenegraph: GroupNode;
    animator: GLTFAnimator;
    models: Model[];
  };

  getShaders() {
    const defines: {LIGHTING_PBR?: 1} = {};
    let pbr;

    if (this.props._lighting === 'pbr') {
      pbr = pbrMaterial;
      defines.LIGHTING_PBR = 1;
    } else {
      // Dummy shader module needed to handle
      // pbrMaterial.pbr_baseColorSampler binding
      pbr = {name: 'pbrMaterial'};
    }

    const modules = [project32, picking, scenegraphUniforms, pbr];
    return super.getShaders({defines, vs, fs, modules});
  }

  initializeState() {
    const attributeManager = this.getAttributeManager();
    // attributeManager is always defined for primitive layers
    attributeManager!.addInstanced({
      instancePositions: {
        size: 3,
        type: 'float64',
        fp64: this.use64bitPositions(),
        accessor: 'getPosition',
        transition: true
      },
      instanceColors: {
        type: 'unorm8',
        size: this.props.colorFormat.length,
        accessor: 'getColor',
        defaultValue: DEFAULT_COLOR,
        transition: true
      },
      instanceModelMatrix: MATRIX_ATTRIBUTES
    });
  }

  updateState(params: UpdateParameters<this>) {
    super.updateState(params);
    const {props, oldProps} = params;

    if (props.scenegraph !== oldProps.scenegraph) {
      this._updateScenegraph();
    } else if (props._animations !== oldProps._animations) {
      this._applyAnimationsProp(this.state.animator, props._animations);
    }
  }

  finalizeState(context: LayerContext) {
    super.finalizeState(context);
    this.state.scenegraph?.destroy();
  }

  get isLoaded(): boolean {
    return Boolean(this.state?.scenegraph && super.isLoaded);
  }

  private _updateScenegraph(): void {
    const props = this.props;
    const {device} = this.context;
    let scenegraphData: any = null;
    if (props.scenegraph instanceof ScenegraphNode) {
      // Signature 1: props.scenegraph is a proper luma.gl Scenegraph
      scenegraphData = {scenes: [props.scenegraph]};
    } else if (props.scenegraph && typeof props.scenegraph === 'object') {
      // Converts loaders.gl gltf to luma.gl scenegraph using the undocumented @luma.gl/experimental function
      const gltf = props.scenegraph;

      // Tiles3DLoader already processes GLTF
      const processedGLTF = gltf.json ? postProcessGLTF(gltf) : gltf;

      const gltfObjects = createScenegraphsFromGLTF(device, processedGLTF, this._getModelOptions());
      scenegraphData = {gltf: processedGLTF, ...gltfObjects};

      waitForGLTFAssets(gltfObjects)
        .then(() => {
          this.setNeedsRedraw();
        })
        .catch(ex => {
          this.raiseError(ex, 'loading glTF');
        });
    }

    const options = {layer: this, device: this.context.device};
    const scenegraph = props.getScene(scenegraphData, options);
    const animator = props.getAnimator(scenegraphData, options);

    if (scenegraph instanceof GroupNode) {
      this.state.scenegraph?.destroy();

      this._applyAnimationsProp(animator, props._animations);

      const models: Model[] = [];
      scenegraph.traverse(node => {
        if (node instanceof ModelNode) {
          models.push(node.model);
        }
      });

      this.setState({scenegraph, animator, models});
      this.getAttributeManager()!.invalidateAll();
    } else if (scenegraph !== null) {
      log.warn('invalid scenegraph:', scenegraph)();
    }
  }

  private _applyAnimationsProp(animator: GLTFAnimator, animationsProp: any): void {
    if (!animator || !animationsProp) {
      return;
    }

    const animations = animator.getAnimations();

    // sort() to ensure '*' comes first so that other values can override
    Object.keys(animationsProp)
      .sort()
      .forEach(key => {
        // Key can be:
        //  - number for index number
        //  - name for animation name
        //  - * to affect all animations
        const value = animationsProp[key];

        if (key === '*') {
          animations.forEach(animation => {
            Object.assign(animation, value);
          });
        } else if (Number.isFinite(Number(key))) {
          const number = Number(key);
          if (number >= 0 && number < animations.length) {
            Object.assign(animations[number], value);
          } else {
            log.warn(`animation ${key} not found`)();
          }
        } else {
          const findResult = animations.find(({animation}) => animation.name === key);
          if (findResult) {
            Object.assign(findResult, value);
          } else {
            log.warn(`animation ${key} not found`)();
          }
        }
      });
  }

  private _getModelOptions(): GLTFInstantiatorOptions {
    const {_imageBasedLightingEnvironment} = this.props;

    let env: PBREnvironment | undefined;
    if (_imageBasedLightingEnvironment) {
      if (typeof _imageBasedLightingEnvironment === 'function') {
        env = _imageBasedLightingEnvironment({gl: this.context.gl, layer: this});
      } else {
        env = _imageBasedLightingEnvironment;
      }
    }

    return {
      imageBasedLightingEnvironment: env,
      modelOptions: {
        id: this.props.id,
        isInstanced: true,
        bufferLayout: this.getAttributeManager()!.getBufferLayouts(),
        ...this.getShaders()
      },
      // tangents are not supported
      useTangents: false
    };
  }

  draw({context}) {
    if (!this.state.scenegraph) return;

    if (this.props._animations && this.state.animator) {
      this.state.animator.animate(context.timeline.getTime());
      this.setNeedsRedraw();
    }

    const {viewport, renderPass} = this.context;
    const {sizeScale, sizeMinPixels, sizeMaxPixels, coordinateSystem} = this.props;
    const pbrProjectionProps = {
      camera: viewport.cameraPosition as [number, number, number]
    };

    const numInstances = this.getNumInstances();
    this.state.scenegraph.traverse((node, {worldMatrix}) => {
      if (node instanceof ModelNode) {
        const {model} = node;
        model.setInstanceCount(numInstances);

        const scenegraphProps: ScenegraphProps = {
          sizeScale,
          sizeMinPixels,
          sizeMaxPixels,
          composeModelMatrix: shouldComposeModelMatrix(viewport, coordinateSystem),
          sceneModelMatrix: worldMatrix
        };

        model.shaderInputs.setProps({
          pbrProjection: pbrProjectionProps,
          scenegraph: scenegraphProps
        });
        model.draw(renderPass);
      }
    });
  }
}
